Minimally Invasive Live Tissue High-fidelity Thermophysical Modeling using Real-time Thermography

• URL: http://arxiv.org/abs/2301.09733v1
• Date: Mon, 23 Jan 2023 21:54:01 GMT
• Title: Minimally Invasive Live Tissue High-fidelity Thermophysical Modeling using Real-time Thermography
• Authors: Hamza El-Kebir, Junren Ran, Yongseok Lee, Leonardo P. Chamorro, Martin Ostoja-Starzewski, Richard Berlin, Gabriela M. Aguiluz Cornejo, Enrico Benedetti, Pier C. Giulianotti, Joseph Bentsman
• Abstract summary: We present a novel thermodynamic parameter estimation framework for energy-based surgery on live tissue, with direct applications to tissue characterization during electrosurgery. This framework addresses the problem of estimating tissue-specific thermodynamics in real-time, which would enable accurate prediction of thermal damage impact to the tissue and damage-conscious planning of electrosurgical procedures.
• Score: 0.487576911714538
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We present a novel thermodynamic parameter estimation framework for energy-based surgery on live tissue, with direct applications to tissue characterization during electrosurgery. This framework addresses the problem of estimating tissue-specific thermodynamics in real-time, which would enable accurate prediction of thermal damage impact to the tissue and damage-conscious planning of electrosurgical procedures. Our approach provides basic thermodynamic information such as thermal diffusivity, and also allows for obtaining the thermal relaxation time and a model of the heat source, yielding in real-time a controlled hyperbolic thermodynamics model. The latter accounts for the finite thermal propagation time necessary for modeling of the electrosurgical action, in which the probe motion speed often surpasses the speed of thermal propagation in the tissue operated on. Our approach relies solely on thermographer feedback and a knowledge of the power level and position of the electrosurgical pencil, imposing only very minor adjustments to normal electrosurgery to obtain a high-fidelity model of the tissue-probe interaction. Our method is minimally invasive and can be performed in situ. We apply our method first to simulated data based on porcine muscle tissue to verify its accuracy and then to in vivo liver tissue, and compare the results with those from the literature. This comparison shows that parameterizing the Maxwell--Cattaneo model through the framework proposed yields a noticeably higher fidelity real-time adaptable representation of the thermodynamic tissue response to the electrosurgical impact than currently available. A discussion on the differences between the live and the dead tissue thermodynamics is also provided.

Related papers

• REST: Efficient and Accelerated EEG Seizure Analysis through Residual State Updates [54.96885726053036]
  This paper introduces a novel graph-based residual state update mechanism (REST) for real-time EEG signal analysis. By leveraging a combination of graph neural networks and recurrent structures, REST efficiently captures both non-Euclidean geometry and temporal dependencies within EEG data. Our model demonstrates high accuracy in both seizure detection and classification tasks.
  arXiv  Detail & Related papers  (2024-06-03T16:30:19Z)
• vHeat: Building Vision Models upon Heat Conduction [63.00030330898876]
  vHeat is a novel vision backbone model that simultaneously achieves both high computational efficiency and global receptive field. The essential idea is to conceptualize image patches as heat sources and model the calculation of their correlations as the diffusion of thermal energy.
  arXiv  Detail & Related papers  (2024-05-26T12:58:04Z)
• PhysRFANet: Physics-Guided Neural Network for Real-Time Prediction of Thermal Effect During Radiofrequency Ablation Treatment [0.9895793818721335]
  We propose a physics-guided neural network model, named PhysRFANet, to enable real-time prediction of thermal effect during RFA treatment. Our model demonstrated a 96% Dice score in predicting the lesion volume and an RMSE of 0.4854 for temperature distribution when tested with foreseen tumor images.
  arXiv  Detail & Related papers  (2023-12-21T15:36:52Z)
• Infinite-Dimensional Adaptive Boundary Observer for Inner-Domain Temperature Estimation of 3D Electrosurgical Processes using Surface Thermography Sensing [0.0]
  We present a novel 3D adaptive observer framework for determination of subsurface organic tissue temperatures in electrosurgery. We introduce a novel approach to decoupled parameter adaptation and estimation, wherein the parameter estimation can run in real-time. In this work, we also present a novel model structure adapted to the setting of robotic surgery, wherein we model the electrosurgical heat distribution as a compactly supported magnitude- and velocity-controlled heat source.
  arXiv  Detail & Related papers  (2022-11-01T15:03:01Z)
• Your Autoregressive Generative Model Can be Better If You Treat It as an Energy-Based One [83.5162421521224]
  We propose a unique method termed E-ARM for training autoregressive generative models. E-ARM takes advantage of a well-designed energy-based learning objective. We show that E-ARM can be trained efficiently and is capable of alleviating the exposure bias problem.
  arXiv  Detail & Related papers  (2022-06-26T10:58:41Z)
• Photoinduced prethermal order parameter dynamics in the two-dimensional large-$N$ Hubbard-Heisenberg model [77.34726150561087]
  We study the microscopic dynamics of competing ordered phases in a two-dimensional correlated electron model. We simulate the light-induced transition between two competing phases.
  arXiv  Detail & Related papers  (2022-05-13T13:13:31Z)
• Physics-based Learning of Parameterized Thermodynamics from Real-time Thermography [0.0]
  We present a novel physics-based approach to learning a thermal process's dynamics from real-time thermographic data. We show that our approach is robust against noise, and can be used to further refine parameter estimates.
  arXiv  Detail & Related papers  (2022-03-24T16:06:31Z)
• Smoothness and continuity of cost functionals for ECG mismatch computation [0.0]
  In inverse electrophysiological modeling, i.e. creating models from electrical measurements such as the ECG, the less investigated field of smoothness of the simulated ECGs w.r.t. model parameters need to be further explored. We create a test-bench of a simplified idealized left ventricle model and demonstrate the most important factors for efficient inverse modeling through smooth cost functionals.
  arXiv  Detail & Related papers  (2022-01-12T14:16:47Z)
• DriPP: Driven Point Processes to Model Stimuli Induced Patterns in M/EEG Signals [62.997667081978825]
  We develop a novel statistical point process model-called driven temporal point processes (DriPP) We derive a fast and principled expectation-maximization (EM) algorithm to estimate the parameters of this model. Results on standard MEG datasets demonstrate that our methodology reveals event-related neural responses.
  arXiv  Detail & Related papers  (2021-12-08T13:07:21Z)
• Near-Field Radiative Heat Transfer Eigenmodes [55.41644538483948]
  Near-field electromagnetic interaction between nanoscale objects produces enhanced radiative heat transfer. We present a theoretical framework to describe the temporal dynamics of the radiative heat transfer in ensembles of nanostructures.
  arXiv  Detail & Related papers  (2021-02-10T23:14:30Z)
• Deep correction of breathing-related artifacts in real-time MR-thermometry [0.5727060643816255]
  A convolutional neural network (CNN) was designed to learn the apparent temperature perturbation from images acquired during a preparative learning stage prior to hyperthermia. During the subsequent hyperthermia procedure, the recent magnitude image is used as an input in order to generate an on-line correction for the current temperature map. The method's artifact suppression performance was evaluated on 12 free breathing volunteers and was found robust and artifact-free in all examined cases.
  arXiv  Detail & Related papers  (2020-11-10T10:30:41Z)

This list is automatically generated from the titles and abstracts of the papers in this site.

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.